JP5183307B2 - COMMUNICATION DEVICE, COMMUNICATION DEVICE COMMUNICATION METHOD, PROGRAM, AND STORAGE MEDIUM - Google Patents

Description

  The present invention relates to a communication device, a communication method for the communication device, a program, and a storage medium.

  In wireless communication represented by a wireless LAN compliant with the IEEE 802.11 standard series, there are many setting items that must be set before use.

  For example, as setting items, there are communication parameters necessary for wireless communication such as an SSID (Service Set Identifier) as a network identifier, an encryption method, an encryption key, an authentication method, and an authentication key. It is very complicated for the user to set all of these manually.

  Therefore, various manufacturers have devised automatic setting methods for easily setting communication parameters in wireless devices. In these automatic setting methods, communication parameters are automatically set by providing communication parameters from one device to the other device according to a predetermined procedure and message between connected devices.

  Non-Patent Document 1 discloses an example of automatic setting of communication parameters.

  This automatic setting method includes a method in which a user inputs an authentication code to a device (hereinafter referred to as an authentication code method) and a method in which an authentication code is not input (hereinafter referred to as a non-authentication code method). reference).

  In the authentication code method, an authentication process is performed between devices using an input authentication code, and communication parameters are provided to or received from a device that has been successfully authenticated. In this case, by performing the authentication process, the devices can safely share communication parameters.

  The non-authentication code method automatically provides communication parameters to the device when a terminal that has started communication parameter automatic setting processing is detected. As an example of the non-authentication code method, a setting process is started by pressing a setting start button provided in a device, and automatic setting is performed with a device for which the setting process has been similarly started during the setting process. (Hereinafter referred to as a push button method). Although the non-authentication code method is inferior to the authentication code method in terms of safety, there is an advantage that the operation is simplified because the user does not have to input the authentication code.

The push button method is suitable for an embedded device with a poor user interface because communication parameters are automatically set by simply pressing a setting start button provided in the device.
Wi-Fi CERTIFIED (TM) for Wi-Fi Protected Setup: Easing the User Experience for Home and Small Office Wi-Fi (R) Networks, http: // www. wi-fi. org / wp / wifi-protected-setup

  However, for example, when the setting start buttons of a plurality of wireless devices are pressed almost simultaneously, there is a possibility that communication parameters may be automatically set between unintended devices depending on the positional relationship of the devices.

  For example, when there is already a network constructed using automatic setting of communication parameters, if a plurality of communication devices press the setting start button, whether to join the existing network or network between new communication devices Cannot be uniquely identified.

  An object of the present invention is to solve a problem that occurs when a plurality of communication apparatuses perform communication parameter setting processing.

In order to achieve the above object, the present invention is a communication device, which is a predetermined state indicating that it is in a state in which it is participating in a first network that has already been constructed and is performing communication parameter sharing processing. A first communication device that has transmitted a signal to which no information is added, and a second communication device that has not participated in the first network and has transmitted a signal to which the predetermined information is added Is detected from the first communication device, the monitoring unit monitoring the signal to which the predetermined information is added, and the result of monitoring by the monitoring unit, the signal transmitted from the first communication device. And a request means for requesting the first communication apparatus to provide communication parameters when a signal to which the predetermined information is added is detected.

In addition, the communication apparatus transmits a signal to which the predetermined information indicating that the communication apparatus is participating in the first network that has already been constructed and the communication parameter sharing process is performed is not added. A monitoring unit that monitors the first communication device, and a signal added with the predetermined information transmitted from the first communication device as a result of monitoring by the monitoring unit is detected in the first network. A receiving means for receiving communication parameters from the first communication device, even if a second communication device that has not participated and has transmitted a signal to which the predetermined information is added is detected; It is characterized by having.

In addition, when a first communication device that is a communication device and has joined a first network that has already been established is detected, the first communication device starts automatic communication parameter setting processing. If the first communication device has started communication parameter automatic setting processing, the communication parameter automatic setting processing is performed with the first communication device. If the first communication device does not start the communication parameter automatic setting process even after a predetermined time has elapsed, it does not participate in the first network and starts the communication parameter automatic setting process. And a setting means for performing communication parameter automatic setting processing with the second communication device.

In addition, the communication apparatus transmits a signal to which the predetermined information indicating that the communication apparatus is participating in the first network that has already been constructed and the communication parameter sharing process is performed is not added. When the first communication device and the second communication device that does not participate in the first network and transmits the signal to which the predetermined information is added are detected, Selecting means for allowing a user to select whether to join a network of the first network or a network different from the first network, and depending on the selection by the selecting means, the first communication device or the first And setting means for performing communication parameter sharing processing with the two communication devices.

According to the present invention, it is possible to solve a problem that occurs when a plurality of communication devices share communication parameters. For example, a device that can participate in an existing network or does not participate in an existing network in a situation where the network already exists. Network can be constructed, and it is possible to select whether to join an existing network or construct a new network.

<Embodiment 1>
Hereinafter, the communication apparatus according to the present embodiment will be described in detail with reference to the drawings. In the following, an example using a wireless LAN system compliant with the IEEE 802.11 series will be described, but the communication form is not necessarily limited to the wireless LAN compliant with IEEE 802.11.

  A hardware configuration in a case suitable for the present embodiment will be described.

  FIG. 1 is a block diagram showing an example of the configuration of each device described below according to an embodiment to which the present invention can be applied. Reference numeral 101 denotes the entire apparatus. A control unit 102 controls the entire apparatus by executing a control program stored in the storage unit 103. The control unit 102 also performs communication parameter setting control with other devices. A storage unit 103 stores a control program executed by the control unit 102 and various types of information such as communication parameters. Various operations to be described later are performed by the control unit 102 executing a control program stored in the storage unit 103.

  A wireless unit 104 performs wireless LAN communication conforming to the IEEE802.11 series. Reference numeral 105 denotes a display unit that performs various displays, and has a function capable of outputting visually recognizable information such as an LCD or LED, or outputting sound such as a speaker.

  Reference numeral 106 denotes a setting button for giving a trigger for starting the communication parameter setting process. When the setting button 106 is operated, communication parameter automatic setting processing is started. When the control unit 102 detects an operation of the setting button 106 by the user, the control unit 102 performs processing described later.

  Reference numeral 107 denotes an antenna control unit, and reference numeral 108 denotes an antenna.

  FIG. 2 is a block diagram showing an example of the configuration of software function blocks that execute communication parameter automatic setting operations described later.

  Reference numeral 201 denotes the entire apparatus. Reference numeral 202 denotes a communication parameter automatic setting function block. In the present embodiment, communication parameters necessary for wireless LAN communication such as an SSID as a network identifier, an encryption method, an encryption key, an authentication method, and an authentication key are automatically set. In the following, automatic setting of communication parameters is simplified as automatic setting.

  A packet receiving unit 203 receives packets related to various types of communication. Reception of the beacon (notification signal) is performed by the packet receiving unit 203. A packet transmission unit 204 transmits packets related to various types of communication. The beacon is transmitted by the packet transmission unit 204. Various information about the transmission source device is added to the beacon.

  A search signal transmission unit 205 controls transmission of a device search signal such as a probe request. The probe request can also be referred to as a network search signal for searching for a desired network. Transmission of the probe request is performed by the search signal transmission unit 205. Further, the search signal transmission unit 205 also transmits a probe response that is a response signal to the received probe request. In the present embodiment, when the user operates the setting button 106 and starts the automatic setting process, information (IE (internal setting)) indicating that the beacon, the probe request, and the probe response are being automatically set (automatic setting operation is in progress). (Formation element) is added and sent.

  A search signal receiving unit 206 controls reception of a device search signal such as a probe request from another device. The search signal reception unit 206 receives the probe request. The search signal receiving unit 206 also receives a probe response. Various information of the transmission source device is added to the device search signal and the response signal.

  A network control unit 207 controls network connection. The connection processing to the wireless LAN ad hoc network is performed by the network control unit 207.

  In the automatic setting function unit 202, 208 is a communication parameter receiving unit that receives (accepts) communication parameters from the counterpart device, and 209 is a communication parameter providing unit that provides communication parameters to the counterpart device. An automatic setting control unit 210 controls various protocols in automatic setting. The automatic setting process described later is performed by the communication parameter receiving unit 208 and the communication parameter providing unit 209 based on the control of the automatic setting control unit 210. The automatic setting control unit 210 also determines whether or not the elapsed time since the communication parameter automatic setting process has started exceeds the time limit for the setting process. If it is determined that the time limit has been exceeded, the automatic setting process is stopped under the control of the automatic setting control unit 210.

  Reference numeral 211 denotes a provider detection unit that detects a communication parameter provider. The providing source detection unit 211 detects a communication parameter providing device based on transmission and response of the search signal by the search signal transmission unit 205 and the search signal reception unit 206. Further, the providing source detecting unit 211 can also detect the providing device by receiving the beacon by the packet receiving unit 203. When receiving communication parameters, the detected providing device is requested to provide communication parameters, and the communication parameters are provided.

  A communication parameter storage unit 212 stores communication parameters received from the providing device. The communication parameter storage unit 212 corresponds to the storage unit 103.

  Reference numeral 213 denotes a beacon control unit that controls the transmission timing of a beacon (notification signal). Reference numeral 214 denotes a beacon generation unit that generates a beacon. The generated beacon is transmitted to the network by the packet transmission unit 204. All the functional blocks have a mutual relationship in terms of software or hardware. Further, the functional block is an example, and a plurality of functional blocks may constitute one functional block, or any functional block may be further divided into blocks that perform a plurality of functions.

  FIG. 3 is a diagram showing a communication device A32 (hereinafter, device A), a communication device B33 (hereinafter, device B), a communication device C34 (hereinafter, device C), and a communication device D35 (hereinafter, device D). All these apparatuses have the configuration shown in FIGS. 1 and 2 described above.

  Device A stores configuration information of network A31 (hereinafter, network A) as a communication parameter providing device. The device B is a receiving device that receives communication parameters from the providing device, performs communication parameter automatic setting with the device A, and receives the communication parameters of the network A from the device A.

  In the following description, the term “device A” is used as the meaning of the communication parameter providing device existing in the existing network A, and the term “device B” is used as the meaning of the receiving device of the communication parameter existing in the existing network A. use.

  The network A is an ad hoc network constructed by the devices A and B. An ad hoc network is called an IBSS (Independent Basic Service Set), and each network is distinguished by a BSSID which is a network identifier.

  Here, consider a case where apparatuses C and D perform communication parameter automatic setting processing. The network after performing the automatic setting process is different from the case where all the devices are unified into the same network A as shown in FIG. 4 and the network A generated by the device A as shown in FIG. Two types of configurations can be used, in which the network B is newly configured by the C and the device D.

  In the present embodiment, after the operation of the setting button 106 on the devices C and D, the above two types of configurations shown in FIG. 4 or 5 are determined depending on whether or not the setting button 106 of the configuration device of the network A is pressed. The user can control which one to take.

  FIG. 9 is a diagram illustrating an example of a processing sequence performed between the device A, the device C, and the device D that are communication parameter providing devices of the network A that has already been constructed.

  The device A establishes a network A with the device B in advance (F901). In order to construct the network A, the device A has already executed the automatic setting process with the device B. As described above, in the description of the present embodiment, when the network A is constructed, it is assumed that the device A operates as a communication parameter providing device and the device B operates as a communication parameter receiving device.

In an environment in which the network A has already been constructed, the user of the device C operates the setting button 106 in order to perform automatic setting processing (F902).
The device C in which the setting button 106 has been operated starts an automatic setting process.

  First, a probe request is broadcast in order to search for a partner apparatus that actually performs the automatic setting process (F903). Information indicating that automatic setting processing is in progress is added to the probe request.

  In response to the probe request from the device C, the device A returns a probe response (F904). Since the setting button 106 of the device A is not operated, information indicating that automatic setting processing is being performed is not added to the probe response returned by the device A.

  The device C receives the probe response from the device A and recognizes that the network A is constructed in the vicinity (F906). Further, the device A that has returned the probe response also recognizes that the automatic setting process is not being performed. A method for determining that the device A has constructed the network A will be described later.

  On the other hand, the user of the device D also operates the setting button 106 in order to perform communication parameter automatic setting processing (F905).

  Since the device C periodically performs the network search process, the device C may broadcast the probe request for the network search again after the setting button 106 of the device D is operated (F907). In this case, along with the response of the probe response of the device A (F908), the device D also returns the probe response (F909). Since the probe response transmitted by the device D is transmitted after the setting button 106 of the device D is operated, information indicating that automatic setting processing is in progress is added.

  Accordingly, the device C recognizes the presence of the device D during the automatic setting process upon reception of the probe response from the device D (F910).

  Here, a method in which the device C discriminates between the network A and the device D will be described. For example, there are the following two methods.

First method:
Transmission of the probe request from F903 to F909 and reception of the probe response are performed a plurality of times within a time sufficiently larger than the beacon interval. Since the network A is composed of the devices A and B, the probe response of the same BSSID is transmitted from different MAC addresses of the devices A and B. In this case, it can be determined that the network A composed of the devices A and B exists. If all the probe responses of the same BSSID are from the same MAC address (in this embodiment, the MAC address of the device D) and an IE indicating that automatic setting processing is in progress is added, there is a device D that is undergoing automatic setting processing. Then it can be determined. That is, it can be determined that the corresponding BSSID is used by only one device during the communication parameter automatic setting process.

Second method:
A communication device that constructs or participates in a network through automatic communication parameter setting processing adds special information and returns a probe response. Special information includes information (IE) indicating that a network in which communication parameters are set by automatic setting processing has been established, or the number of communication devices that have performed automatic setting processing and provided communication parameters. Information (IE).

  In this way, it is possible to determine the information received by the communication device that has received the probe response and determine the presence of the network A and the presence of the device D. For example, if the received probe response is given an IE indicating that a network in which communication parameters are set by automatic setting processing is established, the network A can be determined. If the received probe response does not include an IE indicating that a network in which communication parameters are set by automatic setting processing is established, and an IE indicating that automatic setting processing is being performed, communication parameter automatic setting processing Can be determined. In addition, when the IE having the number of communication devices that have performed the automatic setting process and provided the communication parameters is added to the received probe response, the network A can be determined. Further, when such an IE is not added and an IE indicating that the automatic setting process is in progress is added, it is possible to determine the device D that has just started the automatic setting process. Note that these IEs may be completely new elements, or existing IEs may be used. Moreover, you may discriminate | determine the network A and the apparatus D by combining a 1st method and a 2nd method.

  Returning to the description of FIG. In F <b> 905, the device D on which the setting button 106 has been operated by the user starts the automatic setting process as with the device C. That is, a probe request is broadcast in order to search for a partner apparatus that performs communication parameter automatic setting processing (F911). Since this probe request includes information indicating that automatic setting processing is in progress, the device C can receive this signal or recognize the device D during the automatic setting operation.

  Along with the response (F912) of the probe response of the device A, the device C also returns the probe response (F913). Since apparatus A is not in the automatic setting process, the probe response does not include information indicating that the automatic setting process is in progress. Therefore, the device D receives the probe response from the device A and recognizes that the network A is constructed in the vicinity (F914). Further, since the device C is in the automatic setting process, information indicating that the automatic setting process is being performed is added to the probe response transmitted by the device C. Accordingly, the device D receives the probe response from the device C, thereby recognizing that the device C that is performing the automatic setting operation exists in the vicinity (F915).

  Both the device C and the device D recognize that there is a network A constructed by communication parameter automatic setting in the vicinity and other devices that have started communication parameter automatic setting processing.

  Therefore, the devices C and D monitor whether or not the device A, which is a communication parameter providing device of the network A, starts communication parameter providing processing for a certain period of time.

  When the user of the device A operates the setting button 106 (F916), the device A notifies that the communication parameter providing function has been started (F917). This notification is performed, for example, by transmitting a beacon signal including information for notifying the start of the providing function. As another method, information for notifying the start of the providing function may be included in a probe request, a probe response, and other signals. In addition, since the broadcast signal includes the BSSID of network A, the device that has received the broadcast signal can recognize that it is a broadcast signal from a device belonging to network A. By this notification, the device A notifies the presence of itself to the surroundings, and performs the processing of FIG.

  Receiving the notification signal of F917, each of the devices C and D recognizes that the device A of the network A has started the communication parameter providing function. Recognizing that device A has started the providing function, device C and device D each perform automatic communication parameter setting processing with device A (F918, F919). When the devices C and D perform automatic setting processing with the device A, the devices C and D request the device A to provide communication parameters. Upon receiving this request, the device A provides the communication parameters of the network A to the devices C and D. As a result, the devices C and D can receive additional communication parameters for participating in the network A from the device A and can additionally participate in the network A.

  If the setting button 106 of the device A is not operated within a certain time, the communication parameter automatic setting processing is performed between the devices C and D (F920). By this automatic setting process, one of the devices C and D becomes a communication parameter providing device, and the other becomes a receiving device that receives the communication parameters, and the communication parameters are provided from the providing device to the receiving device. Then, a new network B is constructed with this communication parameter.

  Here, whether the device C or the device D is the providing device or the receiving device may be determined dynamically or may be determined in advance.

  Prior to the execution of F918, F919, and F920, a confirmation display may be displayed on the display unit 105 of the device C or the device D for allowing the user to confirm that the communication parameter provision processing is started. In this case, the provision processing may be performed when the setting button 106 is waited for again to be operated again. By adding this operation, it is possible to immediately start the communication parameter providing process according to the user's intention.

  Further, the time for which the device C and the device D wait for the start of the communication parameter providing process by the device A can be shortened by a user operation. For example, a confirmation display such as “Do you want to construct a new network with the device D?” Is displayed on the display unit 105 of the device C, and the user is allowed to select whether or not to construct a new network. Alternatively, “Network A already exists. Do you want to join this network?” Is displayed on the display unit 105 of the devices C and D, and allows the user to select whether or not to join the existing network. Alternatively, “Network A already exists. Do you want to join this network? Do you want to build a new network?” Is displayed on the display unit 105 of the devices C and D, and the user joins the existing network. Or choose to build a new network. In this manner, the user is allowed to select whether to join an existing network or to newly construct a network, and in accordance with the selection, communication parameter automatic setting processing is performed. That is, according to the above selection, communication parameters are automatically provided from the devices that have received communication parameters from the existing network providing devices or have just started the automatic setting of communication parameters. By doing so, it is possible to shorten the time until the communication parameters are automatically set, and it is possible to quickly join an existing network or construct a new network.

  As another example, by operating the setting button 106 or the input unit 109 in a specific pattern determined in advance between the devices C and D, a new network can be created only by the devices C and D regardless of the network A. You may build up quickly.

  In addition, you may perform the process which makes it easy for a user to understand whether the apparatus C additionally participated in the network A, or the apparatus D and the new network were constructed. For example, in the display unit 105 of each device, the same LED pattern and color display may be performed as long as they are the same network.

  Further, as the network search process, the present embodiment has been described with an active scan method in which a probe request is transmitted and a probe response is received to determine a partner apparatus. Instead of this active scan method, a passive scan method that receives a beacon and a probe response and determines a partner device may be used, or another network search method may be used. Of course, you may search using both an active scan system and a passive scan system.

  Following the description of the entire sequence diagram, the processing of each device will be described based on the flowchart.

  FIG. 6 is a diagram illustrating a process flowchart of the device A that is a communication parameter providing device. The flowchart of FIG. 6 is implemented when the control unit 102 of the apparatus A executes a control program stored in the storage unit 103. 6 is implemented by the functional blocks shown in FIG. 2 operating according to the role of each block.

  This process is performed when the network A is constructed between the devices A and B, and when the communication parameters are provided to the device C or the device D after the network A is constructed.

  The control unit 102 of the device A monitors whether or not the setting button 106 has been pressed by the user (S601). When the pressing of the setting button 106 is detected (S601), the control unit 102 starts communication parameter automatic setting processing by the automatic setting function unit 202. The device A functions as a communication parameter providing device for constructing the network A. The control unit 102 that has started the automatic setting process starts measuring the time limit (first predetermined time) of the automatic setting process (S602). When the first predetermined time expires, the communication parameter automatic setting process is stopped. When the automatic setting process starts, the control unit 102 notifies that the communication parameter providing function has started (S603). For example, the beacon signal is transmitted including information for notifying the start of the providing function. In addition, apparatus A waits for reception of a probe request (S604). In response to this, the device A that has received the probe request transmits a probe response to which additional information indicating that communication parameter automatic setting processing is being performed and a providing function has been started is added (S605). This probe response transmission is also a kind of notification that the providing process has been started. If no probe request is received, the process proceeds to step S606.

  The beacon and probe response to which information indicating the start of the providing function is added are probe responses that the providing device returns during execution of the automatic setting process. When the providing function is not started, a beacon and probe response to which the information is not added are transmitted.

  Upon receiving the beacon and probe response with additional information, the communication parameter receiving device transmits a communication parameter automatic setting start request to the providing device in order to request the communication parameter providing device to provide the communication parameter. Therefore, apparatus A waits for arrival of a communication parameter automatic setting start request (provision request) (S606).

  The device A that has received the automatic setting start request (S606) starts processing for sharing the communication parameter with the receiving device (S607). That is, a process of providing communication parameters to the receiving device is performed (S607). If the start request is not received, it is determined whether the first predetermined time has elapsed since the pressing of the setting button was detected (S608). If the first predetermined time has not elapsed, the process returns to step S603. If the first predetermined time has passed without receiving the start request, the automatic setting process is terminated. In this case, the process ends without providing the communication parameter.

  The additional information indicating that the communication parameter automatic setting process is in progress is also additional information indicating that the communication parameter automatic setting function is valid, and the pressing state of the setting button is one of the additional information included in the additional information. It may be a parameter.

  FIG. 7 is a diagram showing an operation flowchart of the device C for executing the sequence described in FIG. Although FIG. 7 is described as an operation flowchart of the device C, the device D operates in the same manner. The flowchart of FIG. 7 is implemented when the control unit 102 of the apparatus C executes a control program stored in the storage unit 103. 7 is implemented by the functional blocks shown in FIG. 2 operating according to the role of each block.

  The control unit 102 of the device C monitors whether or not the user has operated (pressed) the setting button 106 (S701). When detecting that the setting button 106 is pressed, the control unit 102 starts automatic communication parameter setting processing by the automatic setting function unit 202. The control unit 102 that has started the automatic setting process monitors the time limit for the automatic communication parameter setting process (first predetermined time) and whether or not a device in the existing network has started the communication parameter providing function. Time measurement (second predetermined time) is started (S702). When the first predetermined time expires, the communication parameter automatic setting process is stopped. Further, the second predetermined time is shorter than the first predetermined time.

  After starting the timer, the control unit 102 of the device C performs network search processing in order to detect the communication device that has started the automatic setting processing (S703). For example, as described above, the network search process is performed by transmitting a probe request, receiving a probe response, and receiving a beacon signal.

  By confirming the information added to the probe response and the beacon signal, it is possible to detect the providing apparatus that has started the communication parameter automatic setting process. Note that additional information indicating that automatic setting processing is in progress is added to the probe request and transmitted. Thereby, the apparatus which received the said probe request can detect the receiving apparatus which has started the communication parameter automatic setting process.

  As a result of the network search process in S703, it is determined whether or not a device D that has not completed the communication parameter automatic setting process has been detected (S704).

  When the device D is detected in S704, it is determined whether or not the network A exists in addition to the device D (S705).

  The detection of the device D and the detection of the network A may be determined using the same network search result, or search processing may be performed each time.

  If the network A is detected in S705, it is determined whether or not the providing device that manages the communication parameters of the network A that has already been constructed has started the providing function (S706). That is, it is determined whether or not the providing device has started the automatic setting process.

  As the determination processing, for example, it is determined whether or not the setting button 106 of the device A is in a pressed state by determining the contents of the beacon signal and the probe response from the device A that is the providing device. Needless to say, the communication parameter providing device may be the device B existing in the same network A, not the device A. If it is determined by the determination processing in S706 that the device A starts automatic setting processing and parameter exchange is possible, the device C performs communication parameter automatic setting processing with the device A (S707). By this automatic setting process, the device C receives the communication parameters of the network A from the device A, and the device C participates in the network A. In order for device C to perform automatic setting processing with device A, device C requests device A to provide communication parameters. The device A that has received this request provides the communication parameters to the device C.

  On the other hand, in the determination process of S706, when it is confirmed that the providing function of the device A has not been activated, it is determined whether the second predetermined time has elapsed (S708). If the second predetermined time has not elapsed, the process returns to step S703 to continue the network search process. If the device A does not start the providing function even after the second predetermined time has elapsed (S708), communication parameter automatic setting processing is performed with the device D (S709). Thereby, a new network B is constructed by the devices C and D. Even if the network A is not detected before the second predetermined time has elapsed (S705, S708), the device C performs communication parameter automatic setting processing with the device D, and establishes a new network B. To construct. (S709).

  If the presence of the network A and the device D is detected by the search processing in S703, the search processing ends, and the devices participating in the network A start providing functions until the second predetermined time elapses. Whether or not it may be monitored.

  Even if the device D is not detected in S704, it is determined whether or not the network A exists (S710).

  Here, the detection process of the device D and the detection process of the network A may be determined using the same network search result, or the search process may be performed each time. When the network A is detected in S710, it is determined whether or not the providing device that manages the communication parameters of the already constructed network A has started the providing function (S711). That is, it is determined whether the providing apparatus of the network A has started the automatic setting process.

  If it is determined by the determination processing in S711 that the device A as the providing device starts the providing function and the parameters can be exchanged, the device C performs automatic setting processing with the device A (S712), and the device C Join network A.

  On the other hand, if the network A is not detected in the determination process of S710, or if it is confirmed in the determination process of S711 that the provided function of the device A is not activated, has the first predetermined time elapsed? Is determined (S713). If the first predetermined time has not elapsed (S713), the process returns to step S703 to perform the network search process again. If the first predetermined time has elapsed (S713), the process ends without performing the automatic setting process.

  As described above, according to the present embodiment, when there is already a network established by communication parameter automatic setting processing, a new communication device joins the existing network or a new network is constructed between the new communication devices. You can explicitly control what to do. In other words, if the user starts the providing function of the existing network device, the new communication device can receive communication parameters from the existing network providing device. Therefore, the new communication device can participate in the existing network. Further, if the provision function is not started in the apparatus of the existing network, the communication parameter automatic setting process can be performed between the new communication apparatuses instructed by the user for the automatic setting process. Therefore, a new network can be constructed between the new communication devices.

<Embodiment 2>
In the first embodiment, a case has been described in which it is confirmed whether a communication parameter providing apparatus on an existing network has started a communication parameter providing function. That is, a case has been described in which it is confirmed whether a button serving as a trigger for starting the providing function of the providing device on the existing network has been pressed. In the second embodiment, an example in which a participating network is determined in consideration of the time when an existing network is constructed will be described.

  Also in the second embodiment, the device configuration, the network configuration, and the processing sequence between the devices are the same as those in the first embodiment. Further, the processing of apparatus A is the same as that of the first embodiment.

  In the second embodiment, the processes of the devices C and D are different from those in the first embodiment. FIG. 8 shows an operation flowchart of the apparatus C in the second embodiment.

  The operation flow of the device C in the second embodiment will be described with reference to FIG. Although FIG. 8 is described as an operation flowchart of the device C, the device D operates in the same manner. The same processes as those in FIG. 7 are denoted by the same reference numerals as those in FIG. Further, the flowchart of FIG. 8 is implemented when the control unit 102 of the apparatus C executes a control program stored in the storage unit 103. 8 is implemented by the functional blocks shown in FIG. 2 operating according to the role of each block.

  The control unit 102 of the device C monitors whether or not the user has operated (pressed) the setting button 106 (S701). When detecting that the setting button 106 is pressed, the control unit 102 starts automatic communication parameter setting processing by the automatic setting function unit 202. The control unit 102 that has started the automatic setting process monitors the time limit for the automatic communication parameter setting process (first predetermined time) and whether or not a device in the existing network has started the communication parameter providing function. Time measurement (second predetermined time) is started (S702). When the first predetermined time expires, the communication parameter automatic setting process is stopped. Further, the second predetermined time is shorter than the first predetermined time.

  After starting the timer, the control unit 102 of the device C performs network search processing in order to detect the communication device that has started the automatic setting processing (S703). The network search process is performed, for example, by transmitting a probe request, receiving a probe response, and receiving a beacon signal.

  By confirming the information added to the probe response and the beacon signal, it is possible to detect the providing apparatus that has started the communication parameter automatic setting process. Note that additional information indicating that automatic setting processing is in progress is added to the probe request and transmitted. Thereby, the apparatus which received the said probe request can detect the receiving apparatus which has started the communication parameter automatic setting process.

  As a result of the network search process in S703, it is determined whether or not a device D that has not completed the communication parameter automatic setting process has been detected (S704).

  When the device D is detected in S704, it is determined whether or not the network A exists in addition to the device D (S705).

  The detection of the device D and the detection of the network A may be determined using the same network search result, or search processing may be performed each time.

  When the network A is detected in S705, the device C determines how much time has passed since the network A was constructed (S801).

  As a process for determining the time after the network A is constructed, for example, the following process is performed.

  In a wireless LAN network in the IEEE 802.11 standard, a timer called a TSF timer is defined, and the time for network construction can be measured by the value of the timer. TSF is an abbreviation for Timing Synchronization Function, and is originally a function used for synchronization between wireless LAN terminals.

  The TSF timer is added as a time stamp field in the IEEE802.11 packet frame. The TSF timer is a 64-bit counter and can measure up to 2 64 microseconds.

  The time stamp field is cleared to 0 when an IBSS network is constructed, and is incremented if a network exists. The counter is reset to 0 after 2 64 microseconds have elapsed.

  Since 2 64 microseconds is after about 585554 years, it is sufficient to determine the time since the network was constructed. Therefore, the construction time of the network A can be determined by the device C referring to the time stamp field attached to the packet such as the beacon or the probe response of the network A.

  If the network A has been established within a certain time (for example, within one hour) from the time point when the device C starts the communication parameter automatic setting process in S801, the process proceeds to step S706. In step S706, it is determined whether or not the communication parameter providing apparatus that manages the communication parameters of the network A that has already been constructed performs the providing function. That is, it is determined whether or not the providing device has started the automatic setting process.

  As the determination processing, for example, it is determined whether or not the device A is in a button-pressed state by determining the contents of the beacon signal and the probe response from the device A that is the providing device.

  If it is determined by the determination processing in S706 that device A starts automatic setting processing and device A can exchange parameters, device C performs communication parameter automatic setting processing with device A (S707). By this automatic setting process, the device C receives the communication parameters of the network A from the device A, and the device C participates in the network A. In order for device C to perform automatic setting processing with device A, device C requests device A to provide communication parameters. The device A that has received this request provides the communication parameters to the device C.

  On the other hand, in the determination process of S801, when the construction time of the network A is in the past for a predetermined time or more, the communication parameter automatic setting process is performed with the device D without participating in the network A ( S709). Thereby, a new network B is constructed by the devices C and D.

  In the determination process of S706, when it is confirmed that the providing function of the device A has not been activated, it is determined whether the second predetermined time has elapsed (S708). If the second predetermined time has not elapsed, the process returns to step S703 to continue the network search process. If the device A does not start the providing function even after the second predetermined time has elapsed (S708), the device C performs communication parameter automatic setting processing with the device D (S709). Thereby, a new network B is constructed by the devices C and D. Even if the network A is not detected before the second predetermined time elapses (S705, S708), the device C performs an automatic communication parameter setting process with the device D, and the new network B Build up. (S709).

  In the case where the presence of the network A and the device D is detected by the search processing in S703 and the network A is constructed within a certain time (for example, within one hour) from the time when the communication parameter setting processing of the device C is started, The search process ends. Then, it may be monitored whether a device participating in the network A starts the providing function before the second predetermined time elapses.

  Even if the device D is not detected in S704, it is determined whether or not the network A exists (S710).

  Here, the detection process of the device D and the detection process of the network A may be determined using the same network search result, or the search process may be performed each time.

  If network A is detected in S710, it is determined how much time has passed since network A was constructed (S802).

  In S802, if the network A is established within a certain time, it is determined whether or not the providing apparatus that manages the communication parameters of the already constructed network A is performing the providing function (S711).

  If it is determined by the determination processing in S711 that the device A as the providing device has started the providing function and the parameters can be exchanged, the device C performs communication parameter automatic setting processing with the device A (S712). Then, device C joins network A. In order for device C to perform automatic setting processing with device A, device C requests device A to provide communication parameters. The device A that has received this request provides the communication parameters to the device C.

  On the other hand, if the network A is not detected in the determination process of S710, it is determined whether the first predetermined time has elapsed (S713). In addition, when the construction time of the network A is past a predetermined time or more in the determination process of S802, or when it is confirmed in the determination process of S711 that the providing function of the device A is not activated, the first predetermined It is determined whether time has passed (S713). If the first predetermined time has not elapsed (S713), the process returns to step S703 to perform the network search process again. If the first predetermined time has elapsed (S713), the process ends without performing the automatic setting process.

  According to the present embodiment, when there is already a network constructed by the communication parameter automatic setting function, and the time when the network is constructed is close to the time when the automatic setting process is started, the new communication device is already present. It becomes easy to join the network. In addition, when a considerable time has passed since the construction, a new network can be constructed between the new communication devices. By doing in this way, for example, a network can be constructed by user devices gathered within a certain time, apart from a network constructed by user devices gathering before a certain time.

  In the above description, if the existing network is a network constructed within a certain period of time, the new communication device participates in the network. However, if the existing network is a network constructed before a certain time, the new communication device may participate in the network. Further, it is possible to allow the user to specify the time or time zone when the network is constructed, and to participate in the network if there is a network constructed at the time (time zone). In this case, if there is no network constructed at the designated time (time zone), a new network is constructed between the new communication devices.

  By doing so, it is possible to switch between joining an existing network or constructing a new network according to the time when the existing network is constructed. Therefore, it is possible to communicate with a communication partner in consideration of the time when the existing network is constructed.

In particular, when there are a plurality of newly participating devices, it is possible to prevent the newly participating communication devices from building different networks, and this is effective for building a temporary network in a conference or the like held by a large number of people.
Also, the above description has been made with reference to an IEEE 802.11-compliant wireless LAN as an example. However, the present invention may be implemented in other wireless media such as wireless USB, MBOA, Bluetooth (registered trademark), UWB, and ZigBee. Moreover, you may implement in wired communication media, such as wired LAN.

  Here, MBOA is an abbreviation for Multi Band OFDM Alliance. UWB includes wireless USB, wireless 1394, WINET, and the like.

  In addition, the network identifier, the encryption method, the encryption key, the authentication method, and the authentication key are exemplified as communication parameters, but other information may be used, and other information may be included in the communication parameters. Needless to say.

  According to the present invention, a recording medium recording software program codes for realizing the above-described functions is supplied to a system or apparatus, and a computer (CPU, MPU) of the system or apparatus reads and executes the program codes stored in the recording medium. It may be. In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiment, and the storage medium storing the program code constitutes the present invention.

  As a storage medium for supplying the program code, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, a DVD, or the like is used. it can.

  Further, by executing the program code read by the computer, not only the above-described functions are realized, but also the OS running on the computer based on an instruction of the program code partially or entirely of actual processing To realize the above-described function. OS is an abbreviation for Operating System.

  Further, the program code read from the storage medium is written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer. Then, based on the instruction of the program code, the CPU provided in the function expansion board or function expansion unit may perform part or all of the actual processing to realize the above-described function.

Block diagram of the device Software function block diagram in the device Network configuration diagram Network configuration diagram Network configuration diagram Processing flowchart of apparatus A Process flowchart of apparatus C in embodiment 1 Processing flowchart of apparatus C in embodiment 2 Process sequence diagram between apparatuses in the first embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 201 Apparatus apparatus 202 Communication parameter automatic setting functional block 203 Packet receiving part 204 Packet transmission part 205 Search signal transmission part 206 Search signal reception part 207 Network control part 208 Communication parameter reception part 209 Communication parameter provision part 210 Automatic setting control part 211 Communication parameter Provider detection unit 212 Communication parameter storage control unit 213 Beacon control unit 214 Beacon generation unit

Claims (17)

A communication device,
A first communication device that has transmitted a signal that has participated in a first network that has already been constructed and that is in a state in which communication parameter sharing processing is being performed and that is not added with predetermined information; When the second communication apparatus that has transmitted the signal to which the predetermined information is added and that does not participate in the first network is detected, the first communication apparatus transmits the signal. Monitoring means for monitoring a signal to which predetermined information is added;
As a result of monitoring by the monitoring means, upon detecting a signal to which the predetermined information transmitted from the first communication device is added, request means for requesting the first communication device to provide communication parameters;
A communication apparatus comprising: The monitoring means monitors a signal to which the predetermined information transmitted from the first communication device is added according to a time elapsed since the first network was constructed. Item 4. The communication device according to Item 1. If a signal added with the predetermined information transmitted from the first communication device is not detected before the predetermined time elapses, a communication parameter sharing process is performed with the second communication device. The communication apparatus according to claim 1, further comprising a sharing processing execution unit . 2. The communication parameter sharing process with the second communication device is performed when the first communication device is not detected and the second communication device is detected. The communication device according to any one of claims 3 to 3. A communication device,
Monitors the first communication device that has transmitted a signal that has joined the first network that has already been constructed and that is not in a state in which predetermined information indicating that communication parameter sharing processing is being performed is added. Monitoring means to
As a result of monitoring by the monitoring means, when a signal added with the predetermined information transmitted from the first communication device is detected, the signal does not participate in the first network and the predetermined information is Even if the second communication device that has transmitted the added signal is detected, receiving means for receiving communication parameters from the first communication device;
A communication apparatus comprising: A communication device,
Discriminating means for discriminating whether or not the first communication device has started communication parameter automatic setting processing when a first communication device participating in the first network that has already been constructed is detected. When,
When said first communication apparatus has started the communication parameter autoconfiguration processing is performed automatic communication parameter setting processing with the said first communication device, the second even after a predetermined time When the first communication device does not start the communication parameter automatic setting process, the first communication device does not participate in the first network and the second communication device starts the communication parameter automatic setting process. And a setting unit that performs communication parameter automatic setting processing. A communication device,
A first communication device that has transmitted a signal that has participated in a first network that has already been constructed and that is in a state in which communication parameter sharing processing is being performed and that is not added with predetermined information; If it is detected that the second communication device that has not participated in the first network and has transmitted the signal to which the predetermined information is added is joined to the first network, or Selection means for allowing the user to select whether to construct a network different from the first network;
A setting unit for performing communication parameter sharing processing with the first communication device or the second communication device according to the selection by the selection unit;
A communication apparatus comprising: The communication apparatus according to claim 1, wherein the communication parameter is a communication parameter for performing wireless communication. The communication apparatus according to claim 8, wherein the wireless communication is wireless communication conforming to an IEEE 802.11 series. The communication device according to any one of claims 1 to 9, wherein the communication parameter is a communication parameter for performing ad hoc network wireless communication. The communication device according to any one of claims 1 to 10, wherein the communication parameter includes any one of an encryption method, an encryption key, an authentication method, and an authentication key. A communication device control method comprising:
The first monitoring means transmits a signal to which a predetermined information indicating that the monitoring means participates in the already established first network and the communication parameter sharing process is performed is not added. When a communication device and a second communication device that does not participate in the first network and transmits a signal to which the predetermined information is added are detected from the first communication device A monitoring step of monitoring a signal to which the predetermined information to be transmitted is added;
When the monitoring means detects a signal added with the predetermined information transmitted from the first communication device as a result of monitoring in the monitoring step, a request for requesting the first communication device to provide communication parameters Process,
A method for controlling a communication apparatus, comprising: A communication device control method comprising:
The first monitoring means transmits a signal to which a predetermined information indicating that the monitoring means participates in the already established first network and the communication parameter sharing process is performed is not added. A monitoring process for monitoring the communication device;
When the reception unit detects a signal to which the predetermined information transmitted from the first communication device is added as a result of monitoring in the monitoring step, the receiving unit does not participate in the first network, and Even if a second communication device that has transmitted a signal to which predetermined information is added is detected, a receiving step of receiving communication parameters from the first communication device;
A method for controlling a communication apparatus, comprising: A communication device control method comprising:
Whether or not the first communication device has started automatic communication parameter setting processing when the first communication device participating in the first network that has already been constructed is detected by the determination means A discriminating step for discriminating;
When the first communication device has started communication parameter automatic setting processing, the setting means performs communication parameter automatic setting processing with the first communication device, and a predetermined time has elapsed. However, if the first communication device does not start the communication parameter automatic setting process, the second communication that has not joined the first network and has started the communication parameter automatic setting process. A setting process for performing automatic setting processing of communication parameters with the device;
A method for controlling a communication apparatus, comprising: A communication device control method comprising:
The first means that has transmitted a signal to which the selection means is participating in the first network that has already been constructed and is not added with predetermined information indicating that communication parameter sharing processing is being performed If a communication device and a second communication device that does not participate in the first network and transmits a signal to which the predetermined information is added are detected, the communication device participates in the first network. Or a selection step that allows the user to select whether to build a network different from the first network;
A setting step in which a setting unit performs a communication parameter sharing process with the first communication device or the second communication device according to the selection in the selection step;
A method for controlling a communication apparatus, comprising: A program for causing a computer to execute the communication control according to claim 12. A storage medium readable by a computer and storing the program according to claim 16.

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